Tag: steel blade injury

  • Safety First: Discover Why Plastic Doctor Blades Are Preferred over Steel

    Safety First: Discover Why Plastic Doctor Blades Are Preferred over Steel

    Everyone agrees that plastic doctor blades are safer than steel. But why exactly is this true? The answer lies in the fundamental differences between the two materials: steel blades are harder and sharper than plastic blades. While this is commonly understood, the reason becomes clear when we examine the molecular structures of these materials.

    What Does It Mean to Be Sharp?

    Steel and plastic materials (and all matter) are comprised of small particles. As a doctor blade wears, the material is removed in clusters of particulate which can be no smaller than the basic particle size of the material. So, the finest tip on a blade can only be as wide as one particle. And since plastic particles are larger than steel particles, a plastic blade worn to its finest point will be wider than steel. This combined with the fact that plastic is inherently softer than steel, results in a plastic blade edge that is less “sharp” than steel and safer to handle.

    Ink Metering with Plastic Bladesblank

    Given this information, one might wonder if plastic blades can wipe as effectively as a steel blade. The answer is some can, and some can’t. UHMW plastic for example is perfect for applying ink or coating in applications where graphic difficulty is limited.  But it is too soft for applications involving high screen anilox rolls or precise metering requirements where a fine contact area is required.

    Thanks to next-generation polymers like Delrin, Polyether Ether Ketone (PEEK), or glass/Kevlar reinforced materials, there are compositions that are rigid enough to support a fine contact area similar to that of steel. The bonus is these blades are plastic, so they are inherently softer and do not develop a dangerous cutting edge risking injury to press operators.

    Making the Switch

    Next-generation polymer doctor blades offer the performance of steel blades while providing the safety of plastic blades. The combination of advanced materials and innovative profile (MicroTip, bevel, etc.) design enables these safe doctor blades to perform in demanding applications previously dominated by steel. Substituting a next-generation polymer doctor blade for steel is a great way to produce a high-quality product while maintaining a safe work environment.

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  • In Safe Hands with Polymer Doctor Blades Blog Series Part 2 “Steel Doctor Blade Risk Management”

    In Safe Hands with Polymer Doctor Blades Blog Series Part 2 “Steel Doctor Blade Risk Management”

    blankWorkplace hazards are present in almost every industry, and the printing industry is no exception. A press operator faces many dangers at work every day. One of the greatest is the risk of serious lacerations to his hands if he’s using steel doctor blades. He is exposed to being cut anytime he’s handling them – installing or removing them from the press, cleaning them, disposing them and when changing end seals. The blades are especially dangerous when being replaced – their edges become honed through contact with the anilox roll as they wear, leaving razor-sharp tips that can cause serious cuts.

    Fortunately, printers have a variety of options to reduce or eliminate the risk of injuries from steel doctor blades without sacrificing print quality.

    Wear personal protective equipment

    blankWhen worn correctly, cut-resistant gloves can prevent injuries to operators when using steel blades. However, the U.S. Bureau of Labor Statistics 2012 figures show that about 70% of lost-time hand injuries occur on workers who aren’t wearing gloves. The remaining 30% are wearing gloves at the time of the accident, but the gloves are inadequate, damaged or the wrong type for the job. It goes to show, the steel doctor blade risk of serious lacerations to a press operator’s hands doesn’t just go away with wearing protective gloves.

    Establish occupational health and safety programs

    Companies with safety and health management programs reduce their injury and illness costs by an estimated 20-40% according to the Occupational Safety and Health Administration (OSHA). In fact, an ASSE white paper by OSHA’s Office of Regulatory Analysis suggests that companies that implement effective safety and health programs can expect a return of $4 to $6 for every $1 invested. These programs lead to improved productivity and employee well-being in addition to reducing injury-related direct and indirect costs. Training employees and documenting handling procedures can also be beneficial in reducing the doctor blade risk of lacerations. In the pressroom, operators should be taught how to minimize their exposure to the risks from steel doctor blades by following standard protocols – for example by keeping blades in their protective packaging until they are ready to be installed and not changing blades on a machine while it’s running.

    Switch to plastic doctor blades

    The above options will certainly lower the risk of getting cut by steel blades but switching to plastic doctor blades will completely eliminate this doctor blade risk. Plastic materials are inherently softer and less sharp than steel. Even when plastic blades are worn, their edges are not sharp enough to cut a press operator.

    Unlike in the past, a printer producing high-quality graphics now has the option of choosing a plastic blade for its safety benefits. Next generation polymer blades with MicroTip® technology can compete with the metering performance of steel in even the most demanding graphics applications while retaining the safety benefits of traditional plastic.

    Next generation polymers with MicroTip®

    blankToday’s advanced polymer material is stiffer than traditional plastic and can support a precisely engineered MicroTip edge. This tip design allows the blade to achieve and maintain a fine contact area with the anilox roll comparable to a steel blade. Next generation polymer blades are able to effectively meter line screens up to 2000 LPI or 785 L/cm and produce graphics of the highest quality. The MicroTip has a long and steady wear period which reduces the frequency of blade changes and delivers consistent ink film thickness for the duration of the print job.

    Today’s printers have more options than ever to improve workplace safety. Protective gear and safety programs will no doubt reduce the risk of injuries from steel doctor blades. But if you want to completely eliminate these injuries, then completely eliminate steel blades from your pressroom. Switch to next generation polymer blades and get the best of both worlds – high performance metering and safety.

    Look for part three of our In Safe Hands with Polymer Doctor Blades Blog Series – “Not the Sharpest Blade in the Pressroom.”

    Part 1: Numbers That Add Insults to Doctor Blade Injuries – Read about the frequency of hand injuries in the workplace and their impact on a company’s bottom line

    Request a Free TruPoint Doctor Blade Sample
  • Eliminate the Dangers of Steel Doctor Blades with TruPoint® Blades

    Eliminate the Dangers of Steel Doctor Blades with TruPoint® Blades

    Eliminate the Dangers of Steel Doctor Blades with TruPoint® Blades

    Every industry has its challenges, and for the flexo printing industry they include the dangers of steel doctor blades – anilox scoring and pressroom injuries. Fortunately, due to advancements in polymer materials and tip designs, press operators no longer have to trade the safety benefits of plastic doctor blades for the effectiveness of steel. Today’s next generation TruPoint doctor blades deliver the best of both materials – longer anilox roll life, enhanced pressroom safety and superior metering performance.

    Anilox Roll Scoring Is One of the Dangers of Steel Doctor Blades

    The anilox roll has been referred to as the heart of the flexo printing press. It is responsible for transferring the precise amount of ink required to create an image exactly according to a customer’s specifications. If the roll’s surface becomes damaged, the defects will show in the printed image.

    The most common types of anilox damage are scoring and wear caused by steel doctor blades. All doctor blades must be installed correctly to work properly. But the dangers of steel doctor blades include anilox roll scoringinstalling a steel doctor blade at the wrong angle, backward or with too much pressure can cause small fragments of the metal blade to break away. The jagged pieces become lodged against the roll and cause a deep scratch or “score line” that destroys bands of anilox cells as the roll rotates.

    Steel blades also accelerate wear across the surface of the anilox roller. Friction between the blade and roll erodes the anilox cell walls over time. As a result, the cell volume is reduced and the anilox can no longer carry the precise volume of ink that it was designed to transfer.

    When an anilox roll becomes scored or worn, the damage is permanent and the roll has to be resurfaced or replaced. There is loss of material and productivity as well – discarded substrate, ink waste and press downtime – all at a significant cost to the printer.

    Pressroom Injuries Are Another One of the Dangers of Steel Doctor Blades

    Another downside of steel is that the material is responsible for a large number of pressroom injuries. A press operator is exposed to being cut anytime he’s the dangers of steel doctor blades include pressroom injurieshandling steel blades – installing or removing them from the press, disposing them, and when changing end seals. The blades are especially dangerous when being replaced. Their edges become honed through contact with the anilox roll as they wear, leaving razor-sharp tips that can cause serious lacerations.

    Workplace injuries are not only traumatic, but also have a significant effect on a company’s bottom line. Printers spend substantial amounts of money every year on workman’s compensation insurance and medical bills which come directly out of hard-earned profits. In addition, there are a variety of indirect costs that are harder to quantify but still impact earnings – lost productivity, work interruption, machine downtime, equipment repairs, training of replacement employees and accident investigation.

    TruPoint Next Generation Blades Eliminate the Dangers of Steel Doctor Blades

    Flexo Concepts’ TruPoint polymer doctor blades provide smarter and safer alternatives in a wide range of flexo printing applications. All TruPoint blades are constructed from plastic materials that won’t damage the anilox roll or injure press operators. The materials don’t separate, splinter or crack and are inherently softer and less sharp than steel. Even when plastic blades are worn, their edges are not sharp enough to destroy a roll or cut a press operator. [Download our Safety white paper: “The Hidden Costs of Using Steel Doctor Blades.”]

    TruPoint next generation doctor blades are engineered for printers who want to combine the best benefits of both plastic and steel in one blade. Unlike with eliminate the dangers of steel doctor blades with TruPoint Orangetraditional plastic materials, the TruPoint Orange® blade is constructed from an advanced polymer material that’s rigid enough to support a special MicroTip® edge. MicroTip is designed to achieve and maintain a fine contact area with the roll over the life of the blade. Orange is capable of metering line screens up to 785 L/cm as well as a steel blade and is a popular choice in flexible packaging, coating and label printing applications, where the blade also prevents UV ink spitting and start-up lines.

    As graphics requirements grow in the corrugated printing sector, many printers are finding that standard UHMW cannot meter their mid-level line screen anilox rolls effectively. There is a “gap” between where UHMW is effective and steel is required on anilox line screens roughly between 120 and 200 L/cm. For printers who don’t want the safety and scoring risks of a steel blade, the TruPoint Green beveled doctor blade provides them with a good alternative. The material demonstrates better stiffness and twice the spring memory of standard UHMW, allowing it to maintain an effective contact area with eliminate the dangers of steel doctor blades with TruPoint Greenthe roll for the life of the blade. Green is an easy drop-in replacement for UHMW to enable printers to produce better print quality without resorting to a steel blade.

    Printers, like people in other industries, struggle to find ways to reduce operational costs and improve safety. New polymer doctor blade innovations now give printers safer alternatives to steel blades that deliver the same level of quality. Choosing TruPoint next generation polymer doctor blades over steel is a simple way to prolong the life of anilox rolls, reduce lost-time accidents and deliver exceptional metering performance.

    Request a Free TruPoint Doctor Blade Sample
  • In Safe Hands with Polymer Doctor Blades Blog Series Part 1 “Numbers That Add Insults to Doctor Blade Injuries”

    In Safe Hands with Polymer Doctor Blades Blog Series Part 1 “Numbers That Add Insults to Doctor Blade Injuries”

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    OSHA reports, “Businesses spend $170 billion a year on costs associated with occupational injuries and illnesses.” Also, “Employers pay almost $1 billion per week for direct workers’ compensation costs alone.” These statements by themselves are alarming. But even more concerning is the fact that these costs are “expenditures that come straight out of company profits.”

    It’s not hard to imagine how traumatic it can be to experience (or even witness) an accident at work. But what not many people think about is the frequency that these injuries occur and the impact they can have on a company’s bottom line.

    It’s true that government regulations have helped keep workers safer. But on-the-job accidents continue to be a big problem for many businesses – and the printing industry is no exception. In the pressroom, some of the most common accidents are cuts and lacerations that occur when operators are handling steel doctor blades. Their edges are incredibly sharp, and machinists need to be extremely careful when installing and removing them from the press to avoid seriously injuring their hands.

    Hand injuries in numbers

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    According to the U.S. Center for Disease Control and Prevention, hand injuries account for 1,080,000 emergency department visits by workers every year in the U.S. (Industrial Safety & Hygiene News, May 1, 2015). In fact, hand injuries ranked second in number after back strains, sprains and other work injuries to the torso in 2015, as reported by the U.S. Bureau of Labor Statistics (U.S. BLS), and close to 20% of all workplace injuries involved cuts and lacerations to the hand and fingers.

    Some other statistics assign dollars to these injuries. The U.S. BLS informs us that hand and wrist accidents, the most expensive of all emergency department injuries, cost $740 million every year; the average hand injury claim now exceeds $6,000, with each lost-time workers’ compensation claim totaling just under $7,500.

    Hidden costs of hand injuries

    Equally significant are the indirect costs associated with work-related injuries. A study published in the Journal of Bone and Joint Surgery indicates that productivity costs due to absenteeism contributed more to the total costs of hand and wrist injuries (56%) than did directly related health-care costs. The U.S. BLS recorded 124,540 on-the-job hand injuries in 2015 that resulted in recordable missed work time of 5 days each. These and other secondary costs – machine downtime, equipment repairs, training of replacement employees, accident investigation, implementation of preventive measures, not to mention bad publicity – contribute to the already steep costs of workplace injuries.

    Like many companies, printers pay a high price for on-the-job injuries. Some of these costs directly affect profits while others have an impact on operations and employee well-being that’s harder to quantify. One thing is certain though – as OSHA cautions, “In today’s business environment, these costs can be the difference between operating in the black and running in the red.”

    Look for part two of our In Safe Hands with Polymer Doctor Blades Blog Series – “Steel Doctor Blade Risk Management” to learn about ways to reduce or eliminate these risks.

  • Polymer Doctor Blades are Safe Substitutes for Steel in Flexible Packaging

    Blade_Safety_Accident_Free_Days_215x275If you are using steel doctor blades, you are probably well aware of the risk of serious cuts from handling the blades. Pressroom injuries can be expensive in terms of morale and accident-related expenses. Today’s next generation polymer blades combine the best of traditional plastic and steel blades and provide safe substitutes for steel in flexible packaging applications.

    As steel doctor blades wear, their tips become honed through contact with the anilox roll, leaving razor-sharp edges. Press operators need to be extremely careful and wear protective gloves when removing the worn blades from the press to avoid injuries.

    Until recently, steel was the only material capable of producing the high quality print required in flexible packaging applications so printers had no choice but to accept these risks. While plastic blades were safer, they were not able to achieve a fine enough contact area with the high line screen rolls.

    blankToday’s next generation polymer blades act as a hybrid between steel and plastic and offer a safe alternative to steel. The combination of an advanced polymer material and an innovative “MicroTip®” design allows these blades to perform in highly demanding applications where previously steel was the only option. Due to their material composition, the new polymer blades are safe to handle even when worn. Converting to these blades will reduce lost-time accidents and can save a printer a lot of money in terms of workman’s compensation insurance rates, medical bills, labor replacement expenses and press downtime.

    When it comes to the pressroom, safety is everyone’s concern. Flexible packaging printers no longer have to accept the danger that comes with using steel blades to get the print quality their customers demand. To greatly reduce the risk of injury and associated costs, try substituting next generation polymer blades for steel.

    Request a Free TruPoint Doctor Blade Sample
  • 5 Reasons to Switch to Polyester Containment Blades

    5 Reasons to Switch to Polyester Containment Blades

    TruPoint Polyester Containment Blade for flexo printing

    Switching to polyester containment blades from steel can offer several benefits for printers. Here are the top 5 reasons to make the switch: 

     1. Elimination of Back Doctoring: 

    Some printers encounter back-doctoring issues at higher press speeds when using steel containment blades. Steel blades are too rigid to allow back-doctored ink to flow back into the chamber, leading to ink buildup and negatively affecting press uptime. Polyester blades, while effectively containing ink, are flexible enough to enable back-doctored ink to return into the chamber, preventing back-doctoring and maintaining print quality. 

    2. Cost Savings: 

    Polyester containment blades are significantly more cost-effective than steel blades. The price per inch for polyester blades is typically one-third to one-half that of steel, making them a cost-efficient choice for printers. 

    3. Enhanced Safety: 

    Replacing the steel containment blade in a chamber with polyester reduces the risk of doctor blade injuries by 50%. Polyester blades are safer to handle, as they don’t pose the same cutting hazard as steel blades during installation and removal from the press. 

    4. Prevention of Anilox Damage: 

    Polyester containment blades are gentle on anilox rolls. They won’t score or damage the rolls, and the material contains no sharp fragments that could break off and harm the engraving on the roll. This non-abrasive quality helps extend the life of anilox rolls, saving on the expense of re-engraving or replacement. 

    5. Reduced Environmental Impact: 

    Polyester containment blades emit a smaller amount of carbon dioxide during production compared to steel blades. Using polyester blades can help printers meet environmental requirements for reducing their carbon footprint, contributing to an eco-friendly printing process. Switching to polyester containment blades reduces downtime and provides a lower per-unit cost while delivering safety benefits, reducing back-doctoring, and lowering the environmental impact of the printing process. It’s a small change that can make a significant difference in efficiency and overall performance in the pressroom. 

    Polyester containment blade coil

    Request a Free Sample of TruPoint Polyester
  • Three Reasons Why Sheetfed Offset Printers Should Replace Their Steel Doctor Blades with Plastic

    Three Reasons Why Sheetfed Offset Printers Should Replace Their Steel Doctor Blades with Plastic

    blankThe goal of a sheetfed offset printer, like every printer, is to produce printed pieces efficiently and economically.  In sheetfed offset coating applications, selecting the right doctor blade will help keep presses running and minimize costs while maintaining a safe pressroom environment.  By replacing steel with non-metallic doctor blades, a printer can reduce pressroom injuries, eliminate anilox roller scoring and extend blade life.

    Three reasons to replace your steel blades with non-metallic doctor blades:

    1. Pressroom Safety

    Steel doctor blades are responsible for a large number of pressroom injuries each year.  As the blades wear, their edges become honed through contact with the anilox roller.  This leaves razor-sharp tips that can cause serious cuts.  Press operators need to be extremely careful and wear protective gloves when removing the worn blades from the press to avoid injuries.  Due to their material composition, non-metallic doctor blades are safer to handle even when worn.  Switching to non-metallic doctor blades will reduce lost-time accidents and can save a printer a lot of money in terms of workman’s compensation insurance rates, medical bills, labor replacement expenses and press downtime.

    2. Anilox Roll Scoring

    Steel blades are also to blame for many cases of anilox roll scoring.  Incorrect blade installation or too much blade pressure can cause small fragments of metal to break away, become trapped against the roller and destroy rows of anilox cells as the roller turns.  The score line appears as a thick band which runs around the circumference of the roller and affects the corresponding area of coating coverage.  The printer wastes substrate and coating and has to have the roller resurfaced or replaced at a significant cost.  In addition to scoring, steel blades accelerate wear on the surface of the anilox roller.  The friction between the blade and roller erodes the anilox cell walls.  As a result, the cell volume is reduced and the anilox roller can no longer carry the precise volume of coating that it was designed to deliver.  Non-metallic blades are non-abrasive and will neither score rollers nor cause accelerated wear on the anilox roller.

    3. Blade Life

    Steel blades wear quickly and need to be replaced frequently.  Non-metallic blades, on the other hand, have a long, slow wear period and  deliver a consistent application of coating for the duration of the print job.  They have a low coefficient of friction which means they need to be changed out less often.  By switching from steel blades, a printer can minimize press disruptions and keep presses running longer.

    For sheetfed offset printers using in-line tower coating units, there is a non-metallic blade available for every application. Tresu and Harris & Bruno chamber users can opt for the TruPoint Orange® blade with MicroTip® edge – a blade capable of effective metering with the added advantages of improved safety, reduced anilox roller scoring and longer blade life.

    Request a Free TruPoint Doctor Blade Sample
  • Plastic Doctor Blades – Advanced Polymers Compete with Steel

    Plastic Doctor Blades – Advanced Polymers Compete with Steel

    blankWhile steel doctor blades used to be the only option to produce high-end graphics, a printer had to deal with the shorter blade life and pressroom injuries that came along with using the material. No more! Recent innovations in materials technology and tip engineering have at last resulted in polymer doctor blades that can compete with steel and also resolve a number of common problems in the pressroom.

    Steel doctor blades are thin and rigid which allows them to achieve a fine contact area with the anilox roll. A fine contact area is required for the blade to achieve an effective wipe on high line screen rolls used in more demanding graphics applications. Traditional plastic doctor blades, on the other hand, have long been preferred for their longer life in less demanding graphics applications. Plastic blades had to be engineered thicker in order to provide enough rigidity to maintain good contact with the anilox roll and achieve a sufficient wipe. The thickness and larger contact area prevented these blades from being effective when used to meter mid to high line screen rolls. While they lasted significantly longer and were safer to handle than steel blades, they tended to leave more ink on the surface of the roll; this produced dot gain and poor image quality in the printed piece.

    blankSteel Blade Disadvantages

    Despite its reputation for being the superior metering material, steel has many disadvantages. The blades wear quickly and need to be replaced frequently. Operators are also exposed to cut hazards when removing the worn blades from the press, and the metal fragments can come loose and score anilox rolls.  The environmental impact of using steel can also be significant. There are huge energy costs associated with the manufacture of steel blades as well as anilox resurfacing, and additional station clean-ups generate a lot of contaminated waste. Despite these drawbacks, steel was believed to be the only doctor blade option to execute a clean wipe on a high line screen anilox roll, leaving printers no choice.

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    New polymer doctor blade contact area is smaller than steel

    New Polymer Doctor Blades

    Today, specially formulated polymer doctor blades offer the best of both steel and plastic. Unlike traditional plastic doctor blades, the next generation material allows for a precisely engineered micro-tip which wears slowly and evenly throughout the life of the blade. The micro-tip edge allows the blade to achieve a fine contact area with the anilox roll and deliver effective metering on line screens up to 2000 lpi or 785 L/cm. The long and steady wear period of the next generation polymer doctor blade maximizes press uptime and allows for consistent ink film thickness for the duration of the print job.

    Compared to steel, the polymer material does not develop a dangerous cutting edge after use, and the worn blades are safe to handle. Also, the material will not separate, splinter or crack and produces no metal fragments that can lodge between the doctor blade and the anilox roll. A reduction in anilox scoring means better image quality, less downtime, less waste and lower roll replacement costs.

    Polymer doctor blades have come a long way in recent years. A combination of advanced materials and a micro-tip edge has produced revolutionary new doctor blade option for printers: a blade that can compete with steel in the most demanding graphics applications while retaining the safety and blade life benefits of traditional plastic.

    Request a Free TruPoint Doctor Blade Sample
  • Steel Doctor Blades Cause Anilox Roll Scoring and Injuries

    Steel Doctor Blades Cause Anilox Roll Scoring and Injuries

    Steel doctor blades are often the cause of anilox roll scoring and severe personal injuries. Switching to nonmetallic blades can not only ensure print quality and minimize waste, but also prolong the life of anilox rolls and reduce the risk of lost-time accidents.

    Anilox Roll Scoring from Steel Doctor Blades

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    Score line on an anilox roll

    Steel doctor blades are the cause of many anilox roll scoring incidents. Improper blade installation and excessive blade pressure can cause small fragments of the metal blade to break away, become lodged against the roll and destroy rows of anilox cells as the roll turns.  The damaged area or “score line” appears as a thin band which runs around the circumference of the roll. The corresponding area of print will either show a dark or light streak depending on the depth and severity of the score line. Either way, the roll has to be resurfaced or replaced at a significant cost to the printer.

    To reduce anilox roll scoring from steel doctor blades:

    • Ensure the roll’s engraving is smooth when received from the anilox supplier
    • Filter inks using current magnet technology
    • Maintain a good anilox cleaning regimen
    • Ensure proper chamber alignment and blade installation
    • Change blades and end seals frequently

    Injuries from Steel Doctor Blades

    blankSteel doctor blades can also be blamed for a large number of pressroom injuries. As steel blades wear, their edges become honed through contact with the anilox roll. This leaves razor-sharp tips that pose a significant cut hazard. Press operators always need to be cautious when handling steel blades but especially careful when removing the worn blades from the press for this reason. There are substantial costs associated with accidents that occur on the job in addition to the emotional impact of a workplace injury. The cost of lost-time accidents from a steel doctor blade ranges from an increase in insurance rates and workman’s compensation claims to medical bills, labor replacement expenses and press downtime.

    When it comes to the pressroom, safety is everyone’s concern. To reduce the risk of injury and eliminate the risk of anilox roll scoring, consider switching to non-metallic blades instead.